Title :
Eight-wavelength Er-Yb doped amplifier: combiner/splitter planar integrated module
Author :
Jaouën, Yves ; Du Mouza, Laurent ; Barbier, Denis ; Delavaux, Jean-Marc ; Bruno, Piero
Author_Institution :
Dept. COMELEC, Ecole Nat. Superieure des Telecommun., Paris, France
Abstract :
We report the successful operation of a pigtailed eight-wavelength planar integrated amplifying combiner. This device can be used in a splitter or in a combiner configuration. It consists in an 8/spl times/1 combiner and a 5.5-cm-long Er-Yb doped waveguide amplifier. The module provides net gain simultaneously to the eight combined wavelengths in the 1531-1546-nm optical bandwidth. This module has been incorporated in an 8/spl times/2.5 Gb/s wavelength-division-multiplexed (WDM) system. The central wavelength was 1535 nm and the channel spacing was 1 nm. Negative penalty for bit-error-rate performances (BER<10/sup -10/) has been measured for each wavelength. The results of the system performance demonstrate the potential of the ion-exchange technology in providing cost effective integrated optic solutions for WDM networks applications.
Keywords :
erbium; error statistics; ion exchange; laser beams; optical beam splitters; optical fabrication; optical fibre networks; optical planar waveguides; optical transmitters; solid lasers; waveguide lasers; wavelength division multiplexing; ytterbium; 1531 to 1546 nm; 2.5 Gbit/s; 8/spl times/1 combiner; Er,Yb doped amplifier; Er,Yb doped waveguide amplifier; WDM; WDM network applications; bit-error-rate performances; central wavelength; channel spacing; combiner configuration; combiner/splitter planar integrated module; cost effective integrated optic solutions; ion-exchange technology; negative penalty; net gain; optical bandwidth; pigtailed eight-wavelength planar integrated amplifying combiner; splitter configuration; system performance; wavelength-division-multiplexed system; Bandwidth; Channel spacing; Costs; Optical amplifiers; Optical waveguides; Performance evaluation; Stimulated emission; System performance; Wavelength division multiplexing; Wavelength measurement;
Journal_Title :
Photonics Technology Letters, IEEE
